Weight for spraying: 75 kg (standard with 2 nozzles) Weight for spraying: 77 kg (optional with 4 nozzles) Weight for spreading: 75 kg (equipped with spreading system) Weight for lifting: 65 kg (equipped with lifting system) Weight for lifting: 90 kg (equipped with dual-battery lifting system)
Max Takeoff Weight[1]
Max takeoff weight for spraying: 175 kg (standard with 2 nozzles) Max takeoff weight for spraying: 177 kg (optional with 4 nozzles) Max takeoff weight for spreading: 175 kg (equipped with spreading system) Max takeoff weight for lifting: 165 kg (equipped with lifting system) Max takeoff weight for lifting: 170 kg (equipped with dual-battery lifting system)
Max Diagonal Wheelbase
2330 mm (diagonal)
Dimensions
3220 mm × 3224 mm × 975 mm(arms and propellers unfolded) 1820 mm × 1840 mm × 975 mm(arms unfolded and propellers folded) 1105 mm × 1265 mm × 975 mm(arms and propellers folded)
Hovering Accuracy Range (with strong GNSS signal)
RTK Enabled: ±10 cm (horizontal), ±10 cm (vertical) RTK not enabled: Horizontal ± 0.6 m, vertical ± 0.3 m
Max Configurable Flight Radius
2 km
Operating Temperature
0 °C to 40 °C
Max Wind Resistance
<6 m/s
Propulsion System – Motors
Stator Size
155 × 16 mm
KV
60 rpm/V
Propulsion System – Propellers
Material
Carbon Fiber Composite
Dimensions
62 inches
Quantity
8 pairs
Spraying System
Model
LS100
Dimensions
880 mm × 870 mm × 810 mm (spray rod folded) 1020 mm × 1930 mm × 810 mm (spray rod unfolded)
1106 mm × 805 mm × 816 mm (spray rod folded) 1930 mm × 1011 mm × 816 mm (spray rod unfolded)
Spray Tank Volume
100L
Operating Payload
90kg
Spreading Load
Dimensions
900 mm × 820 mm × 920 mm
Compatible Material Diameter
Standard configuration: Extra-large auger: 0.5 mm – 10 mm granules (fertilizer, wheat, feed, etc.) Medium auger: 4 mm – 6 mm granules (rice) Optional: Large auger: 4 mm – 10 mm granules (rice, fertilizer) Small auger: 0.5 mm – 4 mm granules (rapeseed, granular herbicides, granular insecticides)
Spreading System 4.0
Spreading Tank Volume
150 L
Spreader structure type
Centrifugal Disc
Discharge Structure Type
Screw Feeder Feeding
Max Discharge Rate
400 kg/min (compound fertilizer)
Max load inside the spreading operation box
100 kg
Effective spreading width[3]
3 – 10 m
Lifting System
Dimensions
805 mm × 764 mm × 669 mm
Load capacity[4]
100 kg
Lifting Cable Length
10 m (standard configuration)
Recommended cable length
10 – 15 m
Operating Temperature
0 °C to 40 °C
Dual Battery Lifting System
Dimensions
805 mm × 960 mm × 669 mm
Load capacity[4]
80 kg
Lifting Cable Length
10 m (standard configuration)
Emergency Escape Mode
Cable Fuse Disconnection and Escape
Recommended cable length
10 – 15 m
Operating Temperature
0 °C to 40 °C
Safety System 3.0
Millimeter wave radar EIRP
< 20 dBm (NCC / MIC / KC / CE / FCC)
Operating Temperature
0 °C to 40 °C
Operating environment requirements
Adequate light and discernible surroundings
Field of View (FOV)
Laser radar: Vertical 272°, Horizontal 60° Front Radar: Horizontal 360°, Vertical ± 45° Downward Radar: Left and Right ± 12.5°, Front and Back ± 22.5° Rear Radar: Left and Right ± 45°, Front and Back ± 45° Quad vision system: Horizontal 360°, Vertical 180° FPV camera: Horizontal ± 86°, Vertical 108°
Measurement range[4]
≤ 60 m
Effective safe obstacle avoidance speed[5]
≤ 13.8 m/s
Effective Obstacle Avoidance Height
≥ 1.5 m
Safe Distance
2.5m (Distance between the drone and obstacle after braking and stable hovering)
Less than one month: -30° to 45° C (-22° to 113° F) One to three months: -30° to 35° C (-22° to 95° F) Three months to one year: -30° to 30° C (-22° to 86° F)
Charging Temperature
5° to 40° C (41° to 104° F)
Internal Battery Runtime
3.8 hours
External Battery Runtime
3.2 hours
Charging Type
Use a USB-C fast charger with a maximum power of 65 W (maximum voltage 20 V), and it is recommended to use the DJI Portable Charger.
Charging Time
2 hours for internal battery or internal and external battery (when remote controller is powered off and using a standard DJI charger)
DB2160 Intelligent Flight Battery
Weight[1]
14.7 ± 0.3 kg
Capacity
41000 mAh
Nominal Voltage
52 V
D14000iE Multifunctional Inverter Generator
Output Channels
1. DC recharge output 42 – 61.6 V/11500 W 2. Air-cooled radiator charge 12 V/6 A 3. AC output 220 V/1500 W
Broadcast Mode: O4: 2.4G/5.8G Relay Mode: Not Supported
Effective signal range
FCC: 15 km SRRC: 12 km CE/JP: 8 km
Charging Time
2.5 hours (30W recharge)
Ingress Protection Rating
IP67
Positioning Accuracy[7]
PPP Satellite-Based Service Accuracy: Convergence Time: 20 mins Horizontal: 30 cm (RMS) Elevation: 40 cm (RMS) Network RTK Calibration: Horizontal: 0.8 cm + 1 ppm (RMS) Vertical: 1.5 cm + 1 ppm (RMS) 1 ppm: Accuracy decreases by 1 mm for every 1 km increase in distance between the aircraft and the base station. For example, if the aircraft is 1 km away from the base station, the accuracy is 1.1 cm.
Footnotes
[1] Measured at sea level, the DJI Agriculture App will intelligently recommend the loading weight based on the current aircraft status, environmental conditions, and operational tasks. Users should not exceed the recommended maximum loading weight, as it may affect flight safety. When using in Australia and Turkey, please follow local regulations and keep the maximum takeoff weight at 149.9kg. [2] The effective spray width of the spraying system depends on the actual working scene. [3] Working height is 3 m, disc rotation speed is 1100 rpm, uniformity requirement (CV<30%) measured broadcast width is 10 m. The faster the disc rotation speed, the higher the flight altitude, the larger the broadcast width. [4] Includes the weight of ropes and hooks. Measured at sea level, the DJI Agriculture App will intelligently recommend the loading weight based on the current state of the aircraft, environmental conditions, and operational tasks. The maximum weight of the loaded material should not exceed the recommended value, as it may affect flight safety. [5] The effective working range of sensing distance, obstacle avoidance, and bypassing capabilities may vary due to different environmental lighting, rain, fog, and the material, location, and shape of the subject object. The downward sensing is used to assist in terrain-following altitude flight, while sensing in other directions is used for obstacle avoidance. Except for scenes without linear obstacles, if a collision occurs at speeds up to 13.8 m/s resulting in aircraft damage, responsibility can be determined through log analysis, and the aircraft may be eligible for free warranty if non-human causes are identified. If there are linear obstacles like wires or guy wires on power poles, please mark them as obstacles; otherwise, failure to bypass them will be the customer’s responsibility. Note:1. The downward perception is used to assist terrain-following altitude flight. If a collision with an obstacle occurs below, it is considered the customer’s responsibility.2. Due to the performance limitations of the safety system, the aircraft cannot actively avoid moving objects. Accidents in such scenes are considered the customer’s responsibility. [6] Sea level height, environmental temperature between 15-40 degrees Celsius, time to charge the battery from 30% to 95%; fast charging is supported when the battery cell temperature is within the range of 15-75 degrees Celsius; charging time varies depending on input power, ASL, initial charge level, and other factors. [7] Positioning accuracy and reliability are affected by various factors, including equipment tilt, signal obstruction, multipath, number of satellites, geometric distribution, and atmospheric conditions. It is recommended to set up the equipment in open scenes, away from electromagnetic interference and multipath environments.
The terms HDMI, HDMI High-Definition Multimedia Interface, HDMI Trade dress and the HDMI Logos are trademarks or registered trademarks of HDMI Licensing Administrator, Inc.